217

I have this code so far:

import argparse
parser = argparse.ArgumentParser()
parser.add_argument("-g", "--games", type=int, default=162,
                    help="The number of games to simulate")
args = parser.parse_args()

It does not make sense to supply a negative value for the number of games, but type=int allows any integer. For example, if I run python simulate_many.py -g -2, args.games will be set to -2 and the program will continue as if nothing is wrong.

I realize that I could just explicit check the value of args.games after parsing arguments. But can I make argparse itself check this condition? How?

I would prefer it to work that way so that the automatic usage message can explain the requirement to the user. Ideally, the output would look something like:

python simulate_many.py -g -2
usage: simulate_many.py [-h] [-g GAMES] [-d] [-l LEAGUE]
simulate_many.py: error: argument -g/--games: invalid positive int value: '-2'

just as it currently handles arguments that can't be converted to integer:

python simulate_many.py -g a
usage: simulate_many.py [-h] [-g GAMES] [-d] [-l LEAGUE]
simulate_many.py: error: argument -g/--games: invalid int value: 'a'

7 Answers 7

317

This should be possible utilizing type. You'll still need to define an actual method that decides this for you:

def check_positive(value):
    ivalue = int(value)
    if ivalue <= 0:
        raise argparse.ArgumentTypeError("%s is an invalid positive int value" % value)
    return ivalue

parser = argparse.ArgumentParser(...)
parser.add_argument('foo', type=check_positive)

This is basically just an adapted example from the perfect_square function in the docs on argparse.

4
  • 1
    Can your function have multiple values? How does that work?
    – Tom
    Commented Jul 1, 2016 at 22:11
  • 3
    If the conversion to int fails, will there still be a readable output? Or should you try raise the conversion manually for that?
    – NOhs
    Commented Sep 12, 2017 at 15:58
  • 7
    @MrZ It'll give something like error: argument foo: invalid check_positive value: 'foo=<whatever>'. You'd could simply add a try: ... except ValueError: around it that re-raises an exception with a better error message.
    – Yuushi
    Commented Sep 13, 2017 at 5:33
  • You can wrap conversion in a try-except block. If exception is raised, then you can raise argparse.ArgumentTypeError(f"Expected integer, got {value}")
    – alercelik
    Commented Apr 5, 2023 at 12:35
88

type would be the recommended option to handle conditions/checks, as in Yuushi's answer.

In your specific case, you can also use the choices parameter if your upper limit is also known:

parser.add_argument('foo', type=int, choices=xrange(5, 10))

Note: Use range instead of xrange for python 3.x

4
  • 4
    I imagine this would be fairly inefficient, as you would be generating a range and then cycling through it validate your input. A quick if is much faster. Commented Oct 8, 2014 at 18:27
  • 3
    @trav1th Indeed it might be, but it's an example usage from the docs. Also, I have said in my answer that Yuushi's answer is the one to go for. Good to give options. And in the case of argparse, it's happening once per execution, uses a generator (xrange) and doesn't require additional code. That trade-off is available. Up to each one to decide which way to go.
    – aneroid
    Commented Oct 9, 2014 at 11:45
  • 33
    To be clearer about jgritty's point on ben author's answer, choices=xrange(0,1000) will result in the entire list of integers from 1 to 999 inclusive being written to your console every time you use --help or if an invalid argument is provided. Not a good choice in most circumstances.
    – biomiker
    Commented Apr 29, 2016 at 16:21
  • If you use a large range of numbers, I don't think this is the cleanest solution, as --help will output the integers that are processed, and completely screw the view of --help Commented Jun 9, 2021 at 8:17
15

The quick and dirty way, if you have a predictable max as well as min for your arg, is use choices with a range

parser.add_argument('foo', type=int, choices=xrange(0, 1000))
3
  • 34
    The downside there is the hideous output.
    – jgritty
    Commented Jan 2, 2013 at 6:05
  • 7
    emphasis on dirty, i guess.
    – ben author
    Commented Jan 2, 2013 at 6:07
  • 6
    To be clearer about jgritty's point, choices=xrange(0,1000) will result in the entire list of integers from 1 to 999 inclusive being written to your console every time you use --help or if an invalid argument is provided. Not a good choice in most circumstances.
    – biomiker
    Commented Apr 29, 2016 at 16:21
13

In case someone (like me) comes across this question in a Google search, here is an example of how to use a modular approach to neatly solve the more general problem of allowing argparse integers only in a specified range:

# Custom argparse type representing a bounded int
class IntRange:

    def __init__(self, imin=None, imax=None):
        self.imin = imin
        self.imax = imax

    def __call__(self, arg):
        try:
            value = int(arg)
        except ValueError:
            raise self.exception()
        if (self.imin is not None and value < self.imin) or (self.imax is not None and value > self.imax):
            raise self.exception()
        return value

    def exception(self):
        if self.imin is not None and self.imax is not None:
            return argparse.ArgumentTypeError(f"Must be an integer in the range [{self.imin}, {self.imax}]")
        elif self.imin is not None:
            return argparse.ArgumentTypeError(f"Must be an integer >= {self.imin}")
        elif self.imax is not None:
            return argparse.ArgumentTypeError(f"Must be an integer <= {self.imax}")
        else:
            return argparse.ArgumentTypeError("Must be an integer")

This allows you to do something like:

parser = argparse.ArgumentParser(...)
parser.add_argument('foo', type=IntRange(1))     # Must have foo >= 1
parser.add_argument('bar', type=IntRange(1, 7))  # Must have 1 <= bar <= 7

The variable foo now allows only positive integers, like the OP asked.

Note that in addition to the above forms, just a maximum is also possible with IntRange:

parser.add_argument('other', type=IntRange(imax=10))  # Must have other <= 10
10

Based on Yuushi's answer, you can also define a simple helper function that can check if a number is positive for various numeric types:

def positive(numeric_type):
    def require_positive(value):
        number = numeric_type(value)
        if number <= 0:
            raise ArgumentTypeError(f"Number {value} must be positive.")
        return number

    return require_positive

The helper function can be used to annotate any numeric argument type like this:

parser = argparse.ArgumentParser(...)
parser.add_argument("positive-integer", type=positive(int))
parser.add_argument("positive-float", type=positive(float))
1
  • ArgumentTypeError should be argparse.ArgumentTypeError. Commented Nov 28, 2023 at 21:16
8

A simpler alternative, especially if subclassing argparse.ArgumentParser, is to initiate the validation from inside the parse_args method.

Inside such a subclass:

def parse_args(self, args=None, namespace=None):
    """Parse and validate args."""
    namespace = super().parse_args(args, namespace)
    if namespace.games <= 0:
         raise self.error('The number of games must be a positive integer.')
    return namespace

This technique may not be as cool as a custom callable, but it does the job.


About ArgumentParser.error(message):

This method prints a usage message including the message to the standard error and terminates the program with a status code of 2.


Credit: answer by jonatan

1
  • Or at the very least, replacing print "-g/--games: must be positive."; sys.exit(1) with just parser.error("-g/--games: must be positive."). (Usage like in jonatan's answer.)
    – aneroid
    Commented Jan 24, 2019 at 6:27
0

Honor Yuushi's answer:

# helper
import argparse

def make_range_checker(lb, ub):
    flb, fub = float(lb), float(ub)
    def checker(val):
        val = int(val)
        if not (flb <= val <= fub):
            # error type must be correct
            # so argparse module catches the error
            raise argparse.ArgumentTypeError(
                f'value out of scope: {lb} - {ub}')
        return val
    return checker

# usage
parser.add_argument("--sleep",
                    default=5,
                    type=make_range_checker(1, 'inf'),
                    help="sleep time in sec, must be postive int")

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